/* Implementation of GPTData class derivative with popt-based command line processing Copyright (C) 2010-2014 Roderick W. Smith This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include #include "gptcl.h" GPTDataCL::GPTDataCL(void) { attributeOperation = backupFile = partName = hybrids = newPartInfo = NULL; mbrParts = twoParts = outDevice = typeCode = partGUID = diskGUID = NULL; alignment = DEFAULT_ALIGNMENT; deletePartNum = infoPartNum = largestPartNum = bsdPartNum = 0; tableSize = GPT_SIZE; } // GPTDataCL constructor GPTDataCL::GPTDataCL(string filename) { } // GPTDataCL constructor with filename GPTDataCL::~GPTDataCL(void) { } // GPTDataCL destructor void GPTDataCL::LoadBackupFile(string backupFile, int &saveData, int &neverSaveData) { if (LoadGPTBackup(backupFile) == 1) { JustLooking(0); saveData = 1; } else { saveData = 0; neverSaveData = 1; cerr << "Error loading backup file!\n"; } // else } // GPTDataCL::LoadBackupFile() // Perform the actions specified on the command line. This is necessarily one // monster of a function! // Returns values: // 0 = success // 1 = too few arguments // 2 = error when reading partition table // 3 = non-GPT disk and no -g option // 4 = unable to save changes // 8 = disk replication operation (-R) failed int GPTDataCL::DoOptions(int argc, char* argv[]) { GPTData secondDevice; int opt, numOptions = 0, saveData = 0, neverSaveData = 0; int partNum = 0, newPartNum = -1, saveNonGPT = 1, retval = 0, pretend = 0; uint64_t low, high, startSector, endSector, sSize; uint64_t temp; // temporary variable; free to use in any case char *device; string cmd, typeGUID, name; PartType typeHelper; struct poptOption theOptions[] = { {"attributes", 'A', POPT_ARG_STRING, &attributeOperation, 'A', "operate on partition attributes", "list|[partnum:show|or|nand|xor|=|set|clear|toggle|get[:bitnum|hexbitmask]]"}, {"set-alignment", 'a', POPT_ARG_INT, &alignment, 'a', "set sector alignment", "value"}, {"backup", 'b', POPT_ARG_STRING, &backupFile, 'b', "backup GPT to file", "file"}, {"change-name", 'c', POPT_ARG_STRING, &partName, 'c', "change partition's name", "partnum:name"}, {"recompute-chs", 'C', POPT_ARG_NONE, NULL, 'C', "recompute CHS values in protective/hybrid MBR", ""}, {"delete", 'd', POPT_ARG_INT, &deletePartNum, 'd', "delete a partition", "partnum"}, {"display-alignment", 'D', POPT_ARG_NONE, NULL, 'D', "show number of sectors per allocation block", ""}, {"move-second-header", 'e', POPT_ARG_NONE, NULL, 'e', "move second header to end of disk", ""}, {"end-of-largest", 'E', POPT_ARG_NONE, NULL, 'E', "show end of largest free block", ""}, {"first-in-largest", 'f', POPT_ARG_NONE, NULL, 'f', "show start of the largest free block", ""}, {"first-aligned-in-largest", 'F', POPT_ARG_NONE, NULL, 'F', "show start of the largest free block, aligned", ""}, {"mbrtogpt", 'g', POPT_ARG_NONE, NULL, 'g', "convert MBR to GPT", ""}, {"randomize-guids", 'G', POPT_ARG_NONE, NULL, 'G', "randomize disk and partition GUIDs", ""}, {"hybrid", 'h', POPT_ARG_STRING, &hybrids, 'h', "create hybrid MBR", "partnum[:partnum...]"}, {"info", 'i', POPT_ARG_INT, &infoPartNum, 'i', "show detailed information on partition", "partnum"}, {"skip-sync", 'j', POPT_ARG_NONE, NULL, 'j', "Don't atempt to sync and update the parittion table", ""}, {"load-backup", 'l', POPT_ARG_STRING, &backupFile, 'l', "load GPT backup from file", "file"}, {"list-types", 'L', POPT_ARG_NONE, NULL, 'L', "list known partition types", ""}, {"gpttombr", 'm', POPT_ARG_STRING, &mbrParts, 'm', "convert GPT to MBR", "partnum[:partnum...]"}, {"new", 'n', POPT_ARG_STRING, &newPartInfo, 'n', "create new partition", "partnum:start:end"}, {"largest-new", 'N', POPT_ARG_INT, &largestPartNum, 'N', "create largest possible new partition", "partnum"}, {"clear", 'o', POPT_ARG_NONE, NULL, 'o', "clear partition table", ""}, {"print", 'p', POPT_ARG_NONE, NULL, 'p', "print partition table", ""}, {"pretend", 'P', POPT_ARG_NONE, NULL, 'P', "make changes in memory, but don't write them", ""}, {"transpose", 'r', POPT_ARG_STRING, &twoParts, 'r', "transpose two partitions", "partnum:partnum"}, {"replicate", 'R', POPT_ARG_STRING, &outDevice, 'R', "replicate partition table", "device_filename"}, {"sort", 's', POPT_ARG_NONE, NULL, 's', "sort partition table entries", ""}, {"resize-table", 'S', POPT_ARG_INT, &tableSize, 'S', "resize partition table", "numparts"}, {"typecode", 't', POPT_ARG_STRING, &typeCode, 't', "change partition type code", "partnum:{hexcode|GUID}"}, {"transform-bsd", 'T', POPT_ARG_INT, &bsdPartNum, 'T', "transform BSD disklabel partition to GPT", "partnum"}, {"partition-guid", 'u', POPT_ARG_STRING, &partGUID, 'u', "set partition GUID", "partnum:guid"}, {"disk-guid", 'U', POPT_ARG_STRING, &diskGUID, 'U', "set disk GUID", "guid"}, {"verify", 'v', POPT_ARG_NONE, NULL, 'v', "check partition table integrity", ""}, {"version", 'V', POPT_ARG_NONE, NULL, 'V', "display version information", ""}, {"zap", 'z', POPT_ARG_NONE, NULL, 'z', "zap (destroy) GPT (but not MBR) data structures", ""}, {"zap-all", 'Z', POPT_ARG_NONE, NULL, 'Z', "zap (destroy) GPT and MBR data structures", ""}, POPT_AUTOHELP { NULL, 0, 0, NULL, 0, NULL, NULL } }; // Create popt context... poptCon = poptGetContext(NULL, argc, (const char**) argv, theOptions, 0); poptSetOtherOptionHelp(poptCon, " [OPTION...] "); if (argc < 2) { poptPrintUsage(poptCon, stderr, 0); return 1; } // Do one loop through the options to find the device filename and deal // with options that don't require a device filename, to flag destructive // (o, z, or Z) options, and to flag presence of a --pretend/-P option while ((opt = poptGetNextOpt(poptCon)) > 0) { switch (opt) { case 'A': cmd = GetString(attributeOperation, 1); if (cmd == "list") Attributes::ListAttributes(); break; case 'L': typeHelper.ShowAllTypes(0); break; case 'P': pretend = 1; break; case 'V': cout << "GPT fdisk (sgdisk) version " << GPTFDISK_VERSION << "\n\n"; break; default: break; } // switch numOptions++; } // while // Assume first non-option argument is the device filename.... device = (char*) poptGetArg(poptCon); poptResetContext(poptCon); if (device != NULL) { JustLooking(); // reset as necessary BeQuiet(); // Tell called functions to be less verbose & interactive if (LoadPartitions((string) device)) { if ((WhichWasUsed() == use_mbr) || (WhichWasUsed() == use_bsd)) saveNonGPT = 0; // flag so we don't overwrite unless directed to do so sSize = GetBlockSize(); while ((opt = poptGetNextOpt(poptCon)) > 0) { switch (opt) { case 'A': { if (cmd != "list") { partNum = (int) GetInt(attributeOperation, 1) - 1; if (partNum < 0) partNum = newPartNum; if ((partNum >= 0) && (partNum < (int) GetNumParts())) { switch (ManageAttributes(partNum, GetString(attributeOperation, 2), GetString(attributeOperation, 3))) { case -1: saveData = 0; neverSaveData = 1; break; case 1: JustLooking(0); saveData = 1; break; default: break; } // switch } else { cerr << "Error: Invalid partition number " << partNum + 1 << "\n"; saveData = 0; neverSaveData = 1; } // if/else reasonable partition # } // if (cmd != "list") break; } // case 'A': case 'a': SetAlignment(alignment); break; case 'b': SaveGPTBackup(backupFile); free(backupFile); break; case 'c': cout << "Setting name!\n"; JustLooking(0); partNum = (int) GetInt(partName, 1) - 1; if (partNum < 0) partNum = newPartNum; cout << "partNum is " << partNum << "\n"; if ((partNum >= 0) && (partNum < (int) GetNumParts())) { cout << "REALLY setting name!\n"; name = GetString(partName, 2); if (SetName(partNum, (UnicodeString) name.c_str())) { saveData = 1; } else { cerr << "Unable to set partition " << partNum + 1 << "'s name to '" << GetString(partName, 2) << "'!\n"; neverSaveData = 1; } // if/else free(partName); } break; case 'C': JustLooking(0); RecomputeCHS(); saveData = 1; break; case 'd': JustLooking(0); if (DeletePartition(deletePartNum - 1) == 0) { cerr << "Error " << errno << " deleting partition!\n"; neverSaveData = 1; } else saveData = 1; break; case 'D': cout << GetAlignment() << "\n"; break; case 'e': JustLooking(0); MoveSecondHeaderToEnd(); saveData = 1; break; case 'E': cout << FindLastInFree(FindFirstInLargest()) << "\n"; break; case 'f': cout << FindFirstInLargest() << "\n"; break; case 'F': temp = FindFirstInLargest(); Align(&temp); cout << temp << "\n"; break; case 'g': JustLooking(0); saveData = 1; saveNonGPT = 1; break; case 'G': JustLooking(0); saveData = 1; RandomizeGUIDs(); break; case 'h': JustLooking(0); if (BuildMBR(hybrids, 1) == 1) saveData = 1; break; case 'i': ShowPartDetails(infoPartNum - 1); break; case 'j': TurnOffSyncing(); break; case 'l': LoadBackupFile(backupFile, saveData, neverSaveData); free(backupFile); break; case 'L': break; case 'm': JustLooking(0); if (BuildMBR(mbrParts, 0) == 1) { if (!pretend) { if (SaveMBR()) { DestroyGPT(); } else cerr << "Problem saving MBR!\n"; } // if saveNonGPT = 0; pretend = 1; // Not really, but works around problem if -g is used with this... saveData = 0; } // if break; case 'n': JustLooking(0); newPartNum = (int) GetInt(newPartInfo, 1) - 1; if (newPartNum < 0) newPartNum = FindFirstFreePart(); low = FindFirstInLargest(); Align(&low); high = FindLastInFree(low); startSector = IeeeToInt(GetString(newPartInfo, 2), sSize, low, high, low); endSector = IeeeToInt(GetString(newPartInfo, 3), sSize, startSector, high, high); if (CreatePartition(newPartNum, startSector, endSector)) { saveData = 1; } else { cerr << "Could not create partition " << newPartNum + 1 << " from " << startSector << " to " << endSector << "\n"; neverSaveData = 1; } // if/else free(newPartInfo); break; case 'N': JustLooking(0); startSector = FindFirstInLargest(); Align(&startSector); endSector = FindLastInFree(startSector); if (largestPartNum < 0) largestPartNum = FindFirstFreePart(); if (CreatePartition(largestPartNum - 1, startSector, endSector)) { saveData = 1; } else { cerr << "Could not create partition " << largestPartNum << " from " << startSector << " to " << endSector << "\n"; neverSaveData = 1; } // if/else break; case 'o': JustLooking(0); ClearGPTData(); saveData = 1; break; case 'p': DisplayGPTData(); break; case 'P': pretend = 1; break; case 'r': JustLooking(0); uint64_t p1, p2; p1 = GetInt(twoParts, 1) - 1; p2 = GetInt(twoParts, 2) - 1; if (SwapPartitions((uint32_t) p1, (uint32_t) p2) == 0) { neverSaveData = 1; cerr << "Cannot swap partitions " << p1 + 1 << " and " << p2 + 1 << "\n"; } else saveData = 1; break; case 'R': secondDevice = *this; secondDevice.SetDisk(outDevice); secondDevice.JustLooking(0); if (!secondDevice.SaveGPTData(1)) retval = 8; break; case 's': JustLooking(0); SortGPT(); saveData = 1; break; case 'S': JustLooking(0); if (SetGPTSize(tableSize) == 0) neverSaveData = 1; else saveData = 1; break; case 't': JustLooking(0); partNum = (int) GetInt(typeCode, 1) - 1; if (partNum < 0) partNum = newPartNum; if ((partNum >= 0) && (partNum < (int) GetNumParts())) { // Remember the original hex value requested string raw = GetString(typeCode, 2); if (raw.size() == 4) { typeRaw[partNum] = StrToHex(raw, 0); } typeHelper = GetString(typeCode, 2); if ((typeHelper != (GUIDData) "00000000-0000-0000-0000-000000000000") && (ChangePartType(partNum, typeHelper))) { saveData = 1; } else { cerr << "Could not change partition " << partNum + 1 << "'s type code to " << GetString(typeCode, 2) << "!\n"; neverSaveData = 1; } // if/else free(typeCode); } break; case 'T': JustLooking(0); XFormDisklabel(bsdPartNum - 1); saveData = 1; break; case 'u': JustLooking(0); saveData = 1; partNum = (int) GetInt(partGUID, 1) - 1; if (partNum < 0) partNum = newPartNum; if ((partNum >= 0) && (partNum < (int) GetNumParts())) { SetPartitionGUID(partNum, GetString(partGUID, 2).c_str()); } break; case 'U': JustLooking(0); saveData = 1; SetDiskGUID(diskGUID); break; case 'v': Verify(); break; case 'z': if (!pretend) { DestroyGPT(); } // if saveNonGPT = 0; saveData = 0; break; case 'Z': if (!pretend) { DestroyGPT(); DestroyMBR(); } // if saveNonGPT = 0; saveData = 0; break; default: cerr << "Unknown option (-" << opt << ")!\n"; break; } // switch } // while } else { // if loaded OK poptResetContext(poptCon); // Do a few types of operations even if there are problems.... while ((opt = poptGetNextOpt(poptCon)) > 0) { switch (opt) { case 'l': LoadBackupFile(backupFile, saveData, neverSaveData); cout << "Information: Loading backup partition table; will override earlier problems!\n"; free(backupFile); retval = 0; break; case 'o': JustLooking(0); ClearGPTData(); saveData = 1; cout << "Information: Creating fresh partition table; will override earlier problems!\n"; retval = 0; break; case 'v': cout << "Verification may miss some problems or report too many!\n"; Verify(); break; case 'z': if (!pretend) { DestroyGPT(); } // if saveNonGPT = 0; saveData = 0; break; case 'Z': if (!pretend) { DestroyGPT(); DestroyMBR(); } // if saveNonGPT = 0; saveData = 0; break; } // switch } // while retval = 2; } // if/else loaded OK if ((saveData) && (!neverSaveData) && (saveNonGPT) && (!pretend)) { SaveGPTData(1); } if (saveData && (!saveNonGPT)) { cout << "Non-GPT disk; not saving changes. Use -g to override.\n"; retval = 3; } // if if (neverSaveData) { cerr << "Error encountered; not saving changes.\n"; retval = 4; } // if } // if (device != NULL) poptFreeContext(poptCon); return retval; } // GPTDataCL::DoOptions() // Create a hybrid or regular MBR from GPT data structures int GPTDataCL::BuildMBR(char* argument, int isHybrid) { int numParts, allOK = 1, i, origPartNum; MBRPart newPart; BasicMBRData newMBR; if (argument != NULL) { numParts = CountColons(argument) + 1; if (numParts <= (4 - isHybrid)) { newMBR.SetDisk(GetDisk()); for (i = 0; i < numParts; i++) { origPartNum = GetInt(argument, i + 1) - 1; if (IsUsedPartNum(origPartNum) && (partitions[origPartNum].IsSizedForMBR() == MBR_SIZED_GOOD)) { newPart.SetInclusion(PRIMARY); newPart.SetLocation(operator[](origPartNum).GetFirstLBA(), operator[](origPartNum).GetLengthLBA()); newPart.SetStatus(0); newPart.SetType((uint8_t)(operator[](origPartNum).GetHexType() / 0x0100)); // If we were created with a specific hex type, use that instead // of risking fidelity loss by doing a GUID-based lookup if (typeRaw.count(origPartNum) == 1) { newPart.SetType(typeRaw[origPartNum]); } newMBR.AddPart(i + isHybrid, newPart); } else { cerr << "Original partition " << origPartNum + 1 << " does not exist or is too big! Aborting operation!\n"; allOK = 0; } // if/else } // for if (isHybrid) { newPart.SetInclusion(PRIMARY); newPart.SetLocation(1, newMBR.FindLastInFree(1)); newPart.SetStatus(0); newPart.SetType(0xEE); newMBR.AddPart(0, newPart); } // if if (allOK) SetProtectiveMBR(newMBR); } else allOK = 0; } else allOK = 0; if (!allOK) cerr << "Problem creating MBR!\n"; return allOK; } // GPTDataCL::BuildMBR() // Returns the number of colons in argument string, ignoring the // first character (thus, a leading colon is ignored, as GetString() // does). int CountColons(char* argument) { int num = 0; while ((argument[0] != '\0') && (argument = strchr(&argument[1], ':'))) num++; return num; } // GPTDataCL::CountColons() // Extract integer data from argument string, which should be colon-delimited uint64_t GetInt(const string & argument, int itemNum) { uint64_t retval; istringstream inString(GetString(argument, itemNum)); inString >> retval; return retval; } // GPTDataCL::GetInt() // Extract string data from argument string, which should be colon-delimited // If string begins with a colon, that colon is skipped in the counting. If an // invalid itemNum is specified, returns an empty string. string GetString(string argument, int itemNum) { size_t startPos = 0, endPos = 0; string retVal = ""; int foundLast = 0; int numFound = 0; if (argument[0] == ':') argument.erase(0, 1); while ((numFound < itemNum) && (!foundLast)) { endPos = argument.find(':', startPos); numFound++; if (endPos == string::npos) { foundLast = 1; endPos = argument.length(); } else if (numFound < itemNum) { startPos = endPos + 1; } // if/elseif } // while if ((numFound == itemNum) && (numFound > 0)) retVal = argument.substr(startPos, endPos - startPos); return retVal; } // GetString()